2

I want several classes to inherit from this interface:

class IPlayer {

public:
     virtual ~IPlayer() {}

     virtual void doSomething() = 0;

protected:
     std::string m_name;

};

Here is a class that needs to inherit from the above:

class Jack : public IPlayer {

public:
      Jack(std::string t_name)
      {
             m_name = t_name;
      }

      ~Jack() { }

      void doSomething()
      {
              /* do a bunch of stuff */
      }

};

Keep in mind we have other classes that inherit from IPlayer in the same fashion, for instance Bob and Alice.

Now let's say I wanted to create a container for Jacks, Bobs and Alices that would allow me to regroup them in a same variable. In this state it is impossible for me, as IPlayer has no ctor therefore cannot serve as a template for objects such as vectors or lists. (At least that's my understanding)

Would it be better to have a class in-between IPlayer and Jack which would implement only the ctor and dtor and then leave the other methods pure virtual to be exploited by the children;

OR

Make IPlayer (and/or any future interface) inherit from the same class as above that implements only ctor and dtor just to make IPlayer ctorable for containers?

  • 1
    You would use a container of (possibly smart) pointers to IPlayer, as in std::vector<IPlayer*> or std::vector<std::unique_ptr<IPlayer>>. Class IPlayer does already have a constructor - a default one; the reason an instance of it can't be created is because it's abstract. Adding more constructors won't change this fact. – Igor Tandetnik Jun 8 at 20:28
  • @IgorTandetnik Right, that is a most valid option. Why/how does using a container of pointers bypasses this problem though ? – SpectreVert Jun 8 at 20:44
  • Bypasses what problem? I'm not sure I quite grasp the nature of the difficulty. – Igor Tandetnik Jun 8 at 20:45
  • If not for the ctor, what in an abstract class's intrinsic features makes it unable to serve as instance for containers? – SpectreVert Jun 8 at 20:50
  • 1
    You cannot create an instance of an abstract class, period; whether as element of a container or otherwise. That's kind of the point of pure virtual functions. You cannot have std::vector<IPlayer> for the same reason you cannot write IPlayer player; or IPlayer* player = new IPlayer; – Igor Tandetnik Jun 8 at 20:51
1

Actually there is no problem with these classes. IPlayer might be an abstract class but you never need to create an instance of this class. You can perfectly declare a vector of pointers to IPlayers as long as the elements of the vector all point to non abstract sub-classes.

Jack* j = new Jack("jack");
std::vector<IPlayer*> v = {j};

This code is perfectly fine since no instance of IPlayer is created.

  • While this is correct it is important to realize that using naked pointers is not a good approach. Who is going to delete the Jack player? – rm1948 Jun 9 at 3:07
  • @rm1948 I used naked pointers to simplify my code. Ofcourse the OP can use smart pointers but that's his choice since I can't know what smart pointer is optimal for his system. I'm just showing how it can be implemented. – DSC Jun 9 at 8:09
  • IMO we should demonstrate good C++ practices. – rm1948 Jun 10 at 17:18
0

The IPlayer can have a constructor and actually has one provided by the compiler.

Here's one approach that keeps the list of players in a static member of IPlayer. But the list doesn't have to be in IPlayer.

#include <memory>
#include <vector>

// forward declaration
class IPlayer;

using Players = std::vector<PlayerPtr>;

class IPlayer {
public:
    virtual ~IPlayer() {
    }
    static void addPlayer(IPlayer& player) {
        mPlayers.push_back(std::make_unique<IPlayer>(player));
    }
private:
    static Players mPlayers;
};

Players IPlayer::mPlayers;

class Bob : public IPlayer {
};

void run() {
    Bob bob;
    IPlayer::addPlayer(bob);
}

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